Anticoccidial activity of a botanical natural product based on eucalyptus, apigenin and eugenol against Eimeria tenella in broiler chickens

Background Chicken coccidiosis is an intracellular parasitic disease that presents major challenges to the development of the commercial poultry industry. Perennial drug selective pressure has led to the multi-drug resistance of chicken coccidia, which makes the prevention and control of chicken coccidiosis extremely difficult. In recent years, natural plant products have attracted the attention of researchers due to their inherent advantages, such as the absence of veterinary drug residues. The development of these natural products provides a new direction for the prevention and treatment of chicken coccidiosis. Methods The anticoccidial effect of a natural plant product combination formulation (eucalyptus oil + apigenin + eugenol essential oil) was tested against Eimeria tenella in broilers. To search for the optimal concentration of the combination formulation, we screened 120 broilers in a chicken cage trial in which 100 broilers were infected with 5 × 104 sporulated Eimeria tenella oocysts; broilers receiving a decoquinate solution was set up as a chemical control. The optimal anticoccidial concentration was determined by calculating the anticoccidial index (ACI), and the suitable concentration was used as the recommended dose for a series of safety dose assessment tests, such as feed conversion ratio (FCR), hematological indices and serum biochemical indices, as well as liver and kidney sections, at onefold (low dose), threefold (medium dose) and sixfold (high dose) the recommended dose (RD). Results The results showed that this combination formulation of three plant natural products had a better anticoccidial effect than formulations containing two plant natural products or a single one, with an ACI of 169.3. The dose gradient anticoccidial test revealed that the high-dose formulation group had a better anticoccidial effect (ACI = 169.2) than the medium- and low-dose groups. The safety evaluation test showed that concentrations of the formulation at one-, three- and sixfold the RD were non-toxic to Arbor Acres broilers, indicating the high safety of the combination formulation. Conclusions The combination formulation showed not only a moderate anticoccidial effect but also had a high safety profile for broilers. The results of this study indicate a new alternative for the prevention and control of coccidiosis in broilers. Graphical Abstract Supplementary Information The online version contains supplementary material available at 10.1186/s13071-024-06409-z.


Background
Chicken coccidiosis is an intracellular parasitic disease that seriously endangers the health of poultry [1][2][3].There are seven common pathogens of chicken coccidiosis [4], among which Eimeria tenella is the most widely distributed and the most damaging species and, consequently, this species is often used as a model pathogenic species for researchers to study chicken coccidiosis [5].Eimeria tenella often parasitizes the cecal tissue of poultry, subsequently completing its life history of sexual reproduction and asexual reproduction in the intestinal epithelial cells.It usually causes extensive bleeding and spots in the cecal mucosa, and thickening and swelling of the intestinal wall to three-to fivefold the original size.The intestinal contents are often white cheese-like material or dark-red intestinal core [6].Chicken coccidia have a very complex life history, which makes the prevention and control of the disease difficult [7].Unsporulated oocysts develop into sporulated oocysts under suitable temperature and humidity conditions [8].Chicken are infected with coccidiosis by ingesting feed or drinking water contaminated with sporulated oocysts.The disease will cause an expulsion of bloody stools by the host, and can even cause death in severe cases [9].
At present, the main method to prevent and control chicken coccidiosis is to add anticoccidial drugs to feed.However, veterinary drug residues pose a serious threat to the health of consumers [10].Many alternative solutions have been proposed to solve this problem, including vaccines and the rotation of common chemicals every 3e months [11], but the risk of veterinary drug residues remains.New vaccines are constantly being developed, but it takes a long time from the development of new vaccine and their actual application in the real world [12].In recent years, some researchers have proposed the development of a plant natural product with anticoccidial effects [13,14] to solve the veterinary drug residue problem while also alleviating drug resistance problem, and plant natural product development has gradually become a new research hot topic for the prevention and control of chicken coccidiosis [15,16].Wang et al. found that artemisinin (effective concentration of 48.62 mg/kg) has a moderate anticoccidial effect, with an anticoccidial index (ACI) of 144.05 [17].Chang et al. reported that a medium dose of garlic essential oil (0.06 ml/l) exhibits a desirable anticoccidial effect, with an ACI of 167.57[18].It is also considered that combinations of plant natural products may have even better anticoccidial effects.For example, Felici et al. [19] studied a combination of theymol, carvacrol and saponins and found that this combination had in vitro inhibitory activity against coccidia in chickens.Although this study [19] was an exploration of plant natural product combinations for in vitro anticoccidial activity, the results open the door to the potential applicability of plant natural combinations for the prevention and control of chicken coccidiosis.
Eugenol essential oil is known to be an extremely safe essential oil and is recognized as a non-mutagenic and non-carcinogenic agent by the U.S. Food and Drug Administration (FDA) [20].Eucalyptus oil is a common antimicrobial, antioxidant essential oil which also has nematicidal properties [21].Apigenin is an edible plantderived flavonoid that has been reported to be an anticancer agent [22].In the present study, we combined these three plant natural products to form a combination of plant natural products that may have anticoccidial effects.Therefore, the purpose of this study was to investigate this combination formulation of multiple plant natural products and its anticoccidial effect and safety in chicken cage experiments.This study provides data to support the development of a plant natural product combination with anticoccidial effects.

Ethics statement
All animal experiments were approved by the Ethics Committee of Huazhong Agricultural University (Approval Number: HZAUCH-2024-0004).All of the animal experiments were conducted in strict accordance with the National Institutes of Health (NIH) Guidelines for the Care and Use of Laboratory Animals [23].

Study design Eimeria tenella oocysts (Xiantao strain)
Eimeria tenella Xiantao strain that was used in this study was stored in the Parasite laboratory of Huazhong Agricultural University.The Eimeria tenella used in the experiments was passaged every 6 months to maintain parasite viability.

Broilers
A total of 350 0-day-old Arbor Acres broilers were purchased from Zhengkang Livestock and Poultry Co., Ltd (Jingzhou city, China).All chickens were kept in coccidia-free cages (0.7 × 0.7 × 0.4 m) with ad libitum access to food and water at 25 ± 2 °C and 55 ± 15% humidity.

Anticoccidial test
A total of 120 13-day-old broilers were randomly divided into 10 groups to ensure that the initial cage weight of each group was almost the same, with 12 broilers in each group.All groups except the healthy control group (HCG) received 5 × 10 4 oocysts orally at age 14 days.The EUC group was provided with feed to which eucalyptus oil had been added (0.20 g eucalyptus oil per 1 kg feed), for 9 days (13-22 days old).The API group was provided with feed to which apigenin had been added (0.20 g apigenin per 1 kg feed), for 9 days (13-22 days old).For the two essential oil combinations, the EUC&EUG group was provided with feed to which both eucalyptus oil and eugenol essential oil had been added (0.20 g eucalyptus oil + 0.20 g eugenol essential oil, at ratio of 1:1, per 1 kg feed), for 9 days (13-22 days old); the EUC&API group was provided with feed to which both eucalyptus oil and apigenin had been added (0.20 g eucalyptus oil + 0.20 g apigenin, at a ratio of 1:1, per 1 kg feed), for 9 days (13-22 days old); and the EUG&API group was provided with feed to which eugenol essential oil and apigenin were added (0.20 g eugenol essential oil + 0.20 g apigenin, at a ratio of 1:1, per 1 kg feed), for 9 days (13-22 days old).For the three essential oil combination, the EUC&API&EUG group was provided with feed to which 0.20 g eucalyptus oil, 0.20 g apigenin and 0.20 g eugenol essential oil per 1 kg feed (1:1:1) had been added (or weaker combinations, see section Gradient-dose (high-, medium-, and low-dose) anticoccidial tests), for 9 days (13-22 days old).The HC received no Eimeria tenella challenge and no treatment.The decoquinate solution group (DS) was administered to chickens by adding 1 ml decoquinate solution per 1 l drinking water for 7 days (14-21 days old).The infection control group (IC) was infected with Eimeria tenella but was not treated (Table 1).
Dietary and water status, clinical signs and mortality of broilers in each group were observed and recorded daily on day 0 post-infection, and the survival rate at the age of 22 days was calculated.When the broilers were 22 days old, all broilers were weighed one by one to calculate the relative weight gain (rBWG) rate.After the broilers were euthanized by injecting excess phenobarbital intravenously, the cecum of each group was collected, and the cecal lesions were scored [24].The number of oocysts per gram of feces (OPG) and the oocyst index (OI) were determined from the feces on the eighth day following infection using the McMaster's technique [17,25].The OI values were converted as follows: oocyst index value = 0 at a oocyst ratio of 0-1%; oocyst index value = 5 at oocyst ratio of 2-25%; oocyst index value = 10 at oocyst ratio of 26-50%; and oocyst index value = 20 at oocyst ratio of 51-75%.The following formulas were used to determine the oocyst ratio, rBWG rate, Lesion index (LI) and ACI: Oocyst ratio (%) = (oocyst rate in treatment groups)/ (oocyst rate in the IC group) × 100% [17]; rBWG rate (%) = (average weight gain of infection groups/average weight gain of healthy group) × 100% [18]; LI = lesion score × 10 [18]; ACI = (rBWG + survival rate) × 100 − (lesion score + OI value) [26].

Gradient-dose (high-, medium-, and low-dose) anticoccidial tests
A total of 120 13-day-old broilers were randomly divided into six groups.The initial cage weight of each group was almost the same, with 20 chickens in each group.All groups, with the exception of the HCG, received 5 × 10 4 oocysts orally at the age of 14 days.The high-dose group (HDG) received feed treated by adding 0.20 g eucalyptus oil, 0.20 g apigenin, and 0.20 g eugenol essential oil (1:1:1) per 1 kg feed, for 9 days (13-22 days old).The medium-dose group (MDG) received feed treated with the same natural plant product combination formulation (1:1:1) at the dose of 0.l0 g of each natural product per 1 kg feed, and the low-dose group (LDG) received feed treated with the same natural plant product combination formulation (1:1:1) at a dose of 0.05 g per 1 kg feed.The HC underwent no Eimeria tenella challenge and no treatment.The DS was treated for 7 days (14-21 days old) by adding 1 ml decoquinate solution to 1 l drinking water, and the IC was infected with Eimeria tenella but was not treated (Table 2).
The clinical symptoms of the broilers in each group were observed and recorded.All 22-day-old broilers were weighed one by one.After euthanization, the cecum of broiler in each group was collected, and the cecal lesions were scored.The OPG, rBWG, LI, OI, and ACI were calculated as described above.

Safety dose test
A total of 80 14-day-old broilers were randomly divided into eight groups.The initial cage weights of each group were almost the same, with 10 broilers in each group.The dose gradient test was designed following the Guidelines for Target Animal Safety Tests of Veterinary Chinese Medicines and Natural Medicines [27].The G1a group was not treated with natural plant products or chemical drugs; the G2a group received feed treated by adding 0.05 g eucalyptus oil, 0.05 g apigenin and 0.05 g eugenol essential oil (1:1:1) per 1 kg feed, for 7 days (14-21 days old); the G3a group received feed treated by adding 0.15 g eucalyptus oil, 0.15 g apigenin and 0.15 g eugenol essential oil (1:1:1) per 1 kg feed, for 7 days (14-21 days old); the G4a groups received feed treated by adding 0.30 g eucalyptus oil, 0.30 g apigenin and 0.30 g eugenol essential oil (1:1:1) per 1 kg feed, for 7 days (14-21 days old); and the G1b group was not treated with natural plant products or chemical drugs.The G2b, G3b and G4b groups received feed treated by adding eucalyptus oil, apigenin and eugenol essential oil per 1 kg feed for 14 days (14-28 days old) at doses of 0.05, 0.15 and 0.30 g at a mixture ratio of 1:1:1, respectively (Table 3).The broilers in the G1a, G2a, G3a and G4a groups were raised to the age of 21 days and weighed, following which blood was collected; the chickens were then euthanized.The broilers in the G1b, G2b, G3b and G4b groups were raised to the age of 28 days and weighed, following which their blood was collected; the chickens were then euthanized.The major organs (heart, liver, spleen, lungs, and kidneys) were weighed to calculate the relative organ weight (ROW) using the following formula: ROW (%) = organ weight (g)/body weight (g) × 100% [28].
Liver tissue and kidney tissue from each group of broilers (21 and 28 days old) were stained with hematoxylin/ eosin for histopathological examination [29].The total feed consumption was calculated and combined with body weight to calculate feed conversion ratio (FCR) and body weight gain (BWG).BWG was calculated as the difference between the mean initial body weight (on day 14) and the mean final body weight (on day 21 and 28).The FCR was calculated as the ratio of feed consumption to BWG [30].
Six broilers at 21 and 28 days of age were randomly selected and blood was collected from each group.The collected blood was subjected to five routine blood tests and the serum was subjected to six serum biochemical analyses.The blood was collected by cardiac puncture and stored in test tubes containing ethylene diamine tetraacetic acid (EDTA).Conventional hematological parameters and standard serum biochemical indicators were measured on a fully automatic blood analyzer (BC-2800vet; Shenzhen Qiaosheng Medical Technology Co., Ltd., Shenzhen, China) and a fully automatic blood biochemical detector (Chemray 240 and 800; Radiodetection Life Sciences Limited, Shenzhen, China), respectively.White blood cells (WBC), red blood cells (RBC), hemoglobin concentration (HGB), hematocrit (HCT, %), mean corpuscular hemoglobin concentration (MCHC), alanine aminotransferase (ALT), aspartate aminotransferase (AST), total protein (TP), total bilirubin (TBIL), blood urea nitrogen (BUN), creatinine (CRE) and other blood indicators were detected [31].

Statistical analysis
The one-way analysis of variance (ANOVA) and Duncan's multiple range test were performed to determine statistical differences between groups using GraphPad Prism 8.0 (GraphPad Software Inc., La Jolla, CA, USA).

Anticoccidial effect of groups and single and double plant natural products
In order to evaluate the effect of the combination formulation on the weight gain of broilers, we calculated the rBWG rate (Additional file 1: Table S1).The results showed that the rBWG rate of chickens receiving the combination formulation was 93.5%, which was slightly higher than the rBWG of 93.4% for the decoquinate group, indicating the desirable weight gain effect of this formulation(Table 4).The results showed that this combination formulation had lower cecal lesions and lower oocyst output than the single-and double-component formula of plant natural products (Fig. 1a, b) (Additional file 1: Table S2, S3).In addition, the ACI of this combination formulation was 169.3, suggesting a good anticoccidial effect (Fig. 1c)(Additional file 1: Table S4).

Anticoccidial effect of gradient doses of the combination formulation
In order to explore the optimal dose of the combination formulation of three plant natural products, we designed and investigated the effects of three gradient doses.The results showed that the rBWG of the high-dose group was 95.7%, which was the highest among the three dose groups, indicating that the high-dose formulation had the best weight gain effect (Table 5) (Additional file 1: Table S5).In addition, the high-dose group exhibited a lower cecal lesion score and a lower oocyst output than the mid-and low-dose groups (Fig. 2a, b) (Additional file 1: Table S6, S7).Further, we calculated the ACI, and found that the ACI of the combination formulation was 169.2, implying its good anticoccidial effect (Fig. 2c) (Additional file 1: Table S8).

Safety dose assessment
In order to accurately evaluate the safety of combination formulation, we designed gradient doses according to the Guidelines for Target Animal Safety Test of Veterinary Chinese Medicines and Natural Drugs [27].The results showed that after 7 days of treatment with the combination formulation, the maximum FCR (1.816) was for the group treated with threefold the recommended dose (RD) (middle-dose group), compared with that for the groups treated with one-and sixfold the RD.After 14 days of treatment, the FCR in the group receiving threefold the RD also showed the highest FCR (1.617) (Table 6) (Additional file 1: Table S9).These results indicated that this combination formulation could effectively improve the FCR.We collected the main organs of broilers in the   7-and 14-day groups, and then calculated the relative organ weight (ROW).The results showed that on 7 or 14 days post-treatment, there were no significant differences in the ROW of the heart, liver, spleen, lungs and kidneys between the combination formulation treatment groups and the control groups (G1a or G1b) (Fig. 3) (Additional file 1: Table S10).Similarly, serum biochemical indicators and blood routine indicators were not significantly different between the combination formulation treatment groups and control groups (G1a or G1b) (Figs. 4, 5) (Additional file 1: Table S11, S12).In addition, no pathological damage was found in the liver or kidney sections in all treatment groups (Fig. 6).These results indicated that the combination formulation of three plant natural products was very safe.

Discussion
Chicken coccidiosis seriously damages the development of the poultry industry [32,33].In recent years, chemical drugs used to prevent and control chicken coccidiosis have exhibited varying degrees of reduced anticoccidial effects [34].Some researchers have proposed to replace antibiotics with natural products.For example, high concentrations of cinnamon have been found to have a moderate anticoccidial activity (ACI = 146) [35], and good anticoccidial efficacy has been reported for 10 g/ kg of Fructus Meliae toosendan extracts, with an ACI of 162.56 [36].It has also been reported that oregano essential oil was able to improve the degree of cecal lesions and reduce oocyst output after coccidia infection [37].In this context, we have investigated whether a combination of plant-derived natural products offers superior anticoccidial effects compared to individual plant-derived products.To our knowledge, this study represents the first attempt to systematically evaluate the efficacy and safety of a plant natural product combination formulation against coccidiosis.Specifically, the evaluation was conducted from three aspects: (i) comparison of the anticoccidial effect between the combination formulation and single or double plant natural products; (ii) exploration of the optimal anticoccidial dose of the combination formulation; and (ii) safety evaluation of this formulation.This study evaluated the anticoccidial effects of the combination formulation and of treatment with single and combinations of two natural plant products.The results showed that this essential oil combination formulation had higher rBWG, lower cecal lesion score and lower oocyst output than the single and double treatments of natural plant products, indicating that the combination formulation achieved a better weight gain effect, lower cecal lesion severity and better oocyst reduction effect.This was further verified by the high anticoccidial comprehensive evaluation index value (ACI = 169.3),which was higher than the ACI achieved by the treatments with the single and double natural plant products.These results suggest that, in general, the combination formulation exhibited a desirable anticoccidial effect despite its slightly lower ACI (183.4) than the decoquinate solution.In addition, this formulation had the advantage of presenting no risk of veterinary drug residues.
This study also evaluated the anticoccidial effect of gradient doses of the combination formulation.The results found that the high-dose group had a better weight gain effect than the low-and medium-dose groups, and that the high dose effectively alleviated the cecal lesion damage caused by Eimeria tenella infection and exhibited a better oocyst output reduction effect.At the same time, the ACI of the high-dose group (169.2) was higher than that of the low-and medium-dose groups, and its high ACI (> 160.0) suggested its good anticoccidial effect.It has been reported that artemisinin exerts anticoccidial effect by inhibiting the feed intake of broilers, resulting in relatively low rBWG [17].Compared with artemisinin, our combination formulation showed a larger relative weight gain, indicating its advantages in terms of the economic benefits of broiler meat production [17].The ACI of garlic essential oil (0.06 ml/l) has been reported to be 167.57,which is lower than that of our combination formulation, suggesting the better anticoccidial effect of our combination formulation [18].
The data presented here on the anticoccidial activity of the combination formulation in the chicken cage test is very complete.However, to know which components of the plant natural products play an effective role in the anticoccidial effect and to determine which stage of the chicken coccidiosis the component acts on, in-depth research should be performed the combines the results of the chicken coccidiosis in vitro inhibition test.Therefore, in the future, we will further improve the purification method of chicken coccidia sporozoites and merozoites, A-E ROW of heart (A), liver (B), spleen (C), lungs (D) and kidneys (E) of each group after 7 days starting the combination formulation treatment.F-J ROW of heart (F), liver (G), spleen (H), lungs (I) and kidneys (J) of each group after 14 days starting the combination formulation treatment.See Table 3 for description of groups.ns, Not significant and attempt to establish an in vitro coccidia culture platform, so as to further explore the key active ingredients of the combination formulation.
Since in the gradient dose safety evaluation test, the ACI of low dose group (LDG) of combination formula reached 150.0, which we regarded as a moderate anticoccidial effect, the concentration of the low-dose group was used as the recommended dose (RD).Further investigation using different RD (one-, three-and sixfold the RD) found that after 7 and 14 days of treatment with these gradient doses of combination formulation, the ROW, five blood routine indicators and six serum biochemical indicators of major organs (heart, liver, spleen, lung and kidney) were not significantly different between the treatment groups and control groups (G1a or G1b).Similarly, there was no obvious pathological damage in the liver and kidney sections.Taken together, these results jointly  3 for description of groups.HCT, Hematocrit; HGB, hemoglobin; MCHC, mean corpuscular hemoglobin concentration; ns, not significant; RBC, red blood cells; WBC, white blood cells indicated that our combination formulation was nontoxic to Arbor Acres broilers and had a high safety.
The above results demonstrate the desirable anticoccidial effect and high safety of our combination formulation.This study is a preliminary study of the clinical application of the anticoccidial effect of this formulation, laying a theoretical basis for the development of new plant essential oil products.The combination formulation also provides a new alternative and supplementary method for the prevention and control of chicken coccidiosis in China.

Conclusions
This study found that a combination formulation had a good anticoccidial effect (ACI = 169.3).The combination formulation achieved better anticoccidial effects than single and double plant natural products.The high-dose group of the combination formulation exhibited the optimal anticoccidial effect, with a ACI of 169.2.The safety evaluation revealed that this formulation was non-toxic to Arbor Acres broilers, exhibiting a high safety.Therefore, the combination formulation has the potential to  3 for description of groups.ALT, Alanine aminotransferase; AST, aspartate aminotransferase; BUN, blood urea nitrogen; CRE, creatinine; ns, not significant; TBIL, total bilirubin; TP, total protein

Fig. 1
Fig. 1 Comparison of the anticoccidial effect of the combination formulation of 3 natural plant products and of single and double plant natural products.A Cecal lesion scores of the combination formulation and of single and dual plant natural product groups.B Oocyst output (8 days post-infection) for the combination formulation and for single and dual plant natural product groups.C Anticoccidial index (ACI) of the combination formulation and of the single and dual botanical natural product groups.API, Apigenin group; DS, decoquinate solution group; EUC, eucalyptus oil group; EUG, eugenol essential oil group; HC, healthy control group; IC, infection control group

Fig. 2
Fig. 2 Anticoccidial effects of the high-, medium-and low-dose groups receiving the combination formulation containing 3 plant natural products.A Cecal lesion scores of the high-, medium-and low-dose groups.B Oocyst output (8 days post-infection) of the high-, medium-, and low-dose groups.C Anticoccidial index (ACI) of the high-, medium-and low-dose groups.DSG, Decoquinate solution group; HCG, healthy control group; HDG, high-dose group; ICG, infection control group; LDG, low-dose group; MDG, middle-dose group

Fig. 3
Fig. 3 Effect of the combination formulation with 3 plant natural products on the relative organ weight (ROW) of chickens in the safety test (n = 6).A-E ROW of heart (A), liver (B), spleen (C), lungs (D) and kidneys (E) of each group after 7 days starting the combination formulation treatment.F-J ROW of heart (F), liver (G), spleen (H), lungs (I) and kidneys (J) of each group after 14 days starting the combination formulation treatment.See Table3for description of groups.ns, Not significant

Fig. 4
Fig. 4 Safety dose assessment in terms of 5 indicators of hematology.A-E WBC (A), RBC (B), HGB (C), HCT (D) and MCHC (E) were assessed at 7 days after starting the combination formulation treatment.F-J WBC (F), RBC (G), HGB (H), HCT (I) and MCHC (J) were assessed at 14 days after starting the combination formulation treatment.See Table3for description of groups.HCT, Hematocrit; HGB, hemoglobin; MCHC, mean corpuscular hemoglobin concentration; ns, not significant; RBC, red blood cells; WBC, white blood cells

Table 1
Botanical natural product treatments for the 10 groups API Apigenin group, DS decoquinate solution group, EUC eucalyptus oil group, EUG eugenol essential oil group, HC healthy control group, IC infection control group

Table 2
Broiler treatments for gradient-dose anticoccidial tests DSG Decoquinate solution group, HCG healthy control group, HDG high-dose group, ICG infection control group, LDG low-dose group, MDG medium-dose group

Table 3
Botanical natural product treatments in the safety dose test for the combination formulation containing three plant natural products G2bEucalyptus oil + apigenin + eugenol essential oil Feed with 0.05 g/kg of eucalyptus oil + apigenin + eugenol essential oil for 14 daysG3bEucalyptus oil + apigenin + eugenol essential oil Feed with 0.15 g/kg of eucalyptus oil + apigenin + eugenol essential oil for 14 daysG4bEucalyptus oil + apigenin + eugenol essential oil Feed with 0.30 g/kg of eucalyptus oil + apigenin + eugenol essential oil for 14 days

Table 4
Relative weight gain rate of chickens receiving single and double plant natural products and the combination formulation of three natural plant products API apigenin group, DS decoquinate solution group, EUC eucalyptus oil group,EUG eugenol essential oil group, HC healthy control group, IC infection control group, rBWG relative body weight gain

Table 5
Relative body weight gain (rBWG) for high-, medium-, and low-dose group of the combination formulation containing 3 plant natural products DSG Decoquinate solution group, HCG healthy control group, HDG high-dose group, ICG infection control group LDG low-dose group, MDG medium-dose group, rBWG relative body weight gain

Table 6
Safety dose assessment in terms of feed conversion ratio and relative body weight gain for all groupsFCR Food conversion rate, rBWG relative body weight gain a See Table3for description of groups